Binary glass systems of the chemical composition 0.25Li2O–0.75B2O3 and 0.25LiF–0.75B2O3 with different additive ratios of V2O5 were prepared using the melt-quenching method. Characterization was carried out through different techniques such as Fourier-transform infrared (FTIR) and ultraviolet–visible absorption (UV–visible) spectroscopy. Optical and electrical properties have been investigated in order to recognize the role of V2O5 in glass. FTIR spectra of the studied glasses expose repetitive vibration curves with limited variations. BO4 and BO3 are the basic constituent units of the studied glasses in addition to the BO2F and BO3F units in the case of fluoro-borate glasses. Shifting to a higher wavelength in the optical absorption spectra and a decrease in the optical band gap values via increasing V2O5 content confirms the formation of non-bridging oxygen (NBO). The ac-electrical conductivity (σac) and the dielectric constants (ɛ′) of the glass samples were studied in the frequency range 102 Hz–8 MHz. The ionic conduction takes place by Li-ion movement in all samples. The electronic conduction of borate glass can be explained using hopping between V4+ and V5+. The results show excellent properties of the glass with a low concentration of vanadium oxide.
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